Method of welding together submerged pipe ends by means of a telescopic connection sleeve

ABSTRACT

In a method of welding together two submerged pipe ends, the pipe ends are spaced apart and introduced through orifices into a receptacle by which they can be isolated from the surrounding medium. The spaced pipe ends are connected by a connection sleeve and after isolation are welded to the connection sleeve.

This is a division of application Ser. No. 700,680, filed June 28, 1976.

The invention relates to the connection, in deep water, of two ends ofsubmerged piping, the welding of the ends being effected in a gaseousmedium.

The need to ensure an effective weld, the welding being effected out ofcontact with water, at depths beyond the reach of divers, has led to asearch for a method of connection in deep water wherein reliable devicescan be used and which ensures the safety of any team involved.

It is an object of the invention to provide a method of connecting, bywelding, the ends of two submerged pipes, comprising surrounding saidends of said two pipes by a receptacle carrying a connection sleeve,making said receptacle watertight by connection thereto of a submarineintervention unit, and welding said pipe ends to said connection sleeve.

In a preferred embodiment said ends of said pipes are introduced intosaid receptacle through two diametrically opposite orifices provided inthe wall of said receptacle, the spacing of the ends of said pipes beingadjusted by cutting portions off. One of said pipe ends is caused topenetrate into one of said orifices by displacement of said receptacletowards the corresponding pipe, said other pipe is brought opposite saidopposite orifice, and then said second pipe is introduced into saidopposite orifice by displacement of said receptacle in the oppositedirection to said first displacement.

Advantageously isolation of the ends of the pipes from the marine mediumis assured by providing external sealing means at the peripheries ofsaid orifices, internal sealing means on the axis of said orifices forsealing against the inner surfaces of said pipes and which are heldspaced apart by a boom withstanding the internal pressures existing inthe pipes, and an annular surface for connection to said submarineintervention unit, said sealing means being controlled afterintroduction of said pipes in such a manner that it is then sufficientto connect said receptacle to said submarine intervention unit, to emptysaid receptacle of water and to bring it into communication with saidintervention unit, wherein said ends of said pipes are situated in agaseous enclosure.

In this manner, the working team can penetrate, in complete safety, evenat a very great depth, into the sealed enclosure, to effect the weldingof the pipes.

Said connection sleeve is preferably first disposed in said receptacleand coaxial with said orifices, at least one portion of said sleevehaving an internal diameter greater than the external diameter of one ofsaid pipes to be connected, said sleeve being displaced after thereceptacle has been brought to atmospheric pressure until it ensures thecontinuity of the two pipes. Said internal sealing means are preferablyoperated after the welding to release them from the internal walls ofsaid pipes and are then moved to one of the free ends of one pipe bysimple application of pressure to the other end of the other pipe.

Thus welding can be effected in a gaseous medium and in safety becausethe internal and external sealing means are held in position by bearingagainst one another during the welding operation.

Additionally cutting of said pipes does not have to be effected toprovide a precise spacing between the ends of said pipes because it ismerely sufficient for the said connection sleeve to be longer than thespacing of the ends of said pipes.

It is another object of the invention to provide a device for carryingout the above method comprising a structure for displacing and aligningsubmerged pipes and including a receptacle having a wall providing anopening for connection to a submarine intervention unit, two orificeseach having a diameter greater than the external diameter of the pipesto be connected, sealing means arranged around said orifices for sealingbetween the external surfaces of the pipes and said receptacle, and aconnection sleeve resting on a support in said receptacle, one of theends of said sleeve having an internal diameter greater than theexternal diameter of the pipe to be connected.

Said device advantageously includes an internal sealing means forclosing and sealing against the inner surfaces of said pipe to beconnected, these internal sealing means being held spaced apart to be atthe level of said orifices by a distance piece and comprising cupshaving the same orientation.

Said cups may not only ensure the centering of said internal sealingmeans and of said distance piece in said pipes, but further enable saidinternal sealing means and said distance piece to be entrained, afterwelding, simply by placing one pipe under pressure at the concave sideof said cups.

Said support for said connection sleeve may be a roller support, saidconnection sleeve being supported about said internal sealing means anddistance piece. In this manner, the positioning of said internal sealingmeans and of said distance piece is essentially longitudinal, saidsleeve being supported exclusively by rollers facilitating its axialdisplacement.

Said internal sealing means are advantageously supported by supportmeans which are retractable towards the interior of said receptacle.

In this way it is sufficient to provide a distance piece of adequatelength for said internal sealing means to be positioned level with saidorifices and to contribute to ensuring the centering of the respectiveinternal sealing means inside the pipe in the course of introductioninto the receptacle, at the moment when the end of the pipe causesretraction of said support means initially supporting said internalsealing means.

The invention will be more fully understood from the followingdescription given of an embodiment thereof, given by way of exampleonly, with reference to the accompanying drawings.

In the drawings:

FIG. 1 is a plan view of an embodiment of a device in accordance withthe invention;

FIG. 2 is the section on the line II--II of FIG. 1;

FIG. 3 is a plan view of part of the device of FIG. 1 after the pipeshave been brought parallel;

FIG. 4 is a section on line IV--IV of FIG. 3;

FIG. 5 is an axial section through a receptacle;

FIG. 6 is a section on the line VI--VI of FIG. 5 after connection of asubmarine intervention unit;

FIG. 7 is the partial section through the receptacle after introductionof a first pipe;

FIG. 8 is the partial section similar to FIG. 7 after introduction ofboth pipes; and

FIG. 9 is the partial section similar to FIG. 7 after connection andwelding of the pipes.

The structure 1, which comprises conventional elements for the handlingof pipes such as pipes 2 and 3, is by way of example only and may bereplaced by any suitable handling structure of the type comprisingpincers 4 mounted on movable supports 5 and 6, the object of which is tograsp the pipes 2, 3 to raise them as indicated diagrammatically in FIG.2 by the arrows 7 and to displace them laterally as indicated by thearrows 8. In this manner, the pipes 2 and 3 can be made parallel andbrought opposite circular counter-sinks 9 and 10. Pincers 11 enable theend pipe portions 12 and 13 to be withdrawn after cutting of the pipesin the direction of the arrows 18, 19 (FIG. 4).

As shown the structure 1, also called a liner, supports a receptacle 14.Jacks 15, FIG. 1, are operable to move the receptacle. After cutting ofthe sections 12 and 13, the receptacle 14 is lowered from the positionshown in FIG. 2 to that shown in FIG. 4 in the direction of the arrow20. In this position, the pipes 2 and 3 are at the same level asdiametrically opposed orifices 16 and 17 (FIG. 5) in the side wall ofthe receptacle. As shown, in FIG. 4, the receptacle 14 can pivot aboutshafts 21. It comprises an annular or rim flange 22 surrounding anopening in its upper portion on which, in the position illustrated, asuitable submarine intervention unit will seat. Since such units arealready known, a portion only of a diving bell is illustrateddiagrammatically at 23 in FIG. 6. The bell is equipped with a source ofelectrical energy and with a control consol 24, and is connected in awatertight manner to the rim 22 of the receptacle 14.

The orifices 16 and 17 of the receptacle 14 are edged by sealing devices25 and 26 which may be as described in U.S. Pat. No. 4,045,035. Eachdevice preferably comprises a guide cone 27, a lip seal 28 and means 29to control application of the lip seal 28. Such means may for examplecomprise an inflatable chamber adjoining the lip seal and normallyholding it in a raised position providing clearance to permit theintroduction of e.g. the pipe 3 into the orifice 17. Deflation of thechamber, obtained for example by means of a control signal from the desk24 via the cable 53, leads to the removal of the forces raising lip seal28 which then lies flat against the pipe 3 (FIG. 8) under the effect ofthe hydrostatic pressure. Since the control or remote-control means maybe of any known kind and are well known they will not be described.

Each of the orifices 16, 17 is provided with retractable lugs 30supporting obturators 31 32, the ends of which are juxtaposed with theends of a boom or distance piece 33, in such a manner that inflatableseals 34 and 35 on the obturators 31, 32, similar to seals 25, 26 andunder the control of respective electrically operated valves 36 and 37,FIG. 5, are vertically in line with the seals 25 and 26. Theelectrically operated valves 36, 37 are connected to control lines 38and 39 ending at suitable signal receiving device, or at automaticdevices for connection to the cable 53 of the control desk 24 before thedoor giving access from the bell 23 to the receptacle 14 is opened. Itwill be noted, however, that this embodiment is particularly suitablefor operation by remote-control devices through a wall constituting anenclosure, the receptacle 14, such for example as are operated by gammaradiation or coded acoustic signals. In the first case, it is sufficientto bring the source of gamma radiation of a particular isotope oppositea Geiger counter forming part of the receptacle and placed at the otherside of the wall for a given time to start any electric circuitactuating e.g. an electrically operated valve, normally closed ornormally open, in a hydraulic or pneumatic circuit. In the second case,it is sufficient to equip each electrically operated valve with areceiving device which only responds to the coded control signalsadopted.

In addition to the lugs 30, the receptacle 14 comprises a support 40,FIG. 6, equipped with rollers 41 supporting a sleeve 42 through whichthe obturator 32 and the boom 33 extend, FIG. 5.

When the end sections 12 and 13 of the pipes have been cut off, theliner 1 displaces the pipe 3 laterally to bring it into line with theaxis of the obturator, FIG. 1. The receptacle 14 is then displacedlongitudinally by the liner so that it passes from the positionillustrated in FIG. 5 to that of FIG. 7. In the course of thisintroduction of the pipe 3, only the lugs 30 of the orifice 17 areretracted, the obturator 31 being supported by cups 43 on the obturatorand bearing against the pipe 3. It will be noted that all the cupsmounted on the boom 33 and on the obturators 31 and 32 have theirconcavity in the same direction although the obturators are oriented inopposite directions. This reversed arrangement facilitates the assemblyof the obturators with the boom 33 by means of simple threaded rods orscrews 44, FIG. 7.

Since the difference between the internal diameter of the sleeve 42 andthe external diameter of the pipe 3 is slight, the simple driving in ofthe end of the pipe 3 towards the restricted portion 45 of the sleeve42, FIG. 7, is sufficient to create frictional forces between the pipe 3and sleeve 42 over a sufficient length so that, by moving the receptacle14 back towards the pipe 2, after pipe 2 has been disposed in line withthe orifice 16, the sleeve 42 remains relative to the pipe 3 in theposition illustrated in FIG. 8. In the course of this displacement, thelugs 30 of orifice 16 are retracted but the obturators 31, 32 slide withthe receptacle 14 so that the seal 35 of the obturator 32 remainsopposite the seal 25 and consequently penetrates sufficiently inside thepipe 2, FIG. 8. For this purpose, the lugs 30 are connected by cables 46to an attachment system 47 fixed to the boom 33.

When the position shown in FIG. 8 has been reached and the submarineintervention unit 23 has been brought to bear on the receptacle, thesealing means 25, 26, 34 and 35 are controlled so that the lip seals ofthe orifices 16 and 17 lie flat against the external walls of the pipes2 and 3 and the lip seals of the obturators 31 and 32 are pushed backagainst the internal walls of the pipes. Under these conditions, it issufficient to operate, from the desk 24 (FIG. 6), a pump 48 which isautomatically connected to a tube 49 leading to a rose 50, to empty thereceptacle 14 and then bring it into communication with the controlchamber 51 of the unit 23 at atmospheric pressure. The working team canthen descend into the receptacle, unhook the cables 46, withdraw thethreaded rods 44 to release the ends of the obturators 31 and 32 fromthe boom, and cause the sleeve 42 to slide until it abuts against thetube 2, as illustrated in FIG. 9. It is then sufficient to weld the end45 of the sleeve, which has the same diameter as the pipe 2, to the pipe2 and to weld the opposite end 52 of the sleeve to the pipe 3. When thisoperation has been carried out, the release of the obturators 31 and 32can be effected by operation of the electrically operated valves 36 and37. As already explained, the remote-controls may be of any kind. By wayof example, the means for obtaining release of the seals may include apyrotechnical striker actuated by the emission of coded sound signals,this striker causing the pressure of the oleopneumatic circuit forinflating the obturator seals to drop. Since the seals are no longerurged against the internal walls of the connected pipes, it issufficient to apply a pressure in the pipe 2 greater than the pressurein the pipe 3 to entrain, by means of the cups 43 which all have thesame orientation, the obturators 31 and 32 as well as the boom 33 (FIG.9) which are thus evacuated from the other end of the pipe 3.

The working team finally leave the site in the submarine interventionunit 23 and the receptacle, which represents a very small part of thetotal cost of the operation is left on the sea bed.

Although only one embodiment has been described of the means forcarrying out the connection and welding in a gaseous atmosphere of twosubmerged pipes, it goes without saying that numerous additions,eliminations or modifications can be made to the elements describedwithout departing from the scope of the present invention.

What is claimed is:
 1. A method of connecting, by welding, the ends oftwo submerged pipes, said method comprising:surrounding said ends ofsaid two pipes by a receptacle carrying internally a connection sleeve,making said receptacle watertight by connecting said receptacle to asubmarine intervention unit, removing the water from said receptacle,and welding said pipe ends penetrating said receptacle to respectiveends of said connection sleeve, and wherein said method furthercomprises the creation of a space between the ends of said pipes to beconnected, with said space being less than the distance separating twoopposed coaxial orifices provided in the wall of said receptacle andintroducing the ends of said pipes successively within said receiptaclethrough said orifices by displacement of said receptacle in oppositedirections such that the ends of said pipes are successively placed inwelding position with respect to said connection sleeve.
 2. A method asclaimed in claim 1, including isolating said ends of said pipes from theexternal medium by operation of external sealing means at the peripheryof said orifices in said receptacle, by operation of internal sealingmeans inserted in said pipes at the level of said orifice, by connectingsaid submarine intervention unit to an upper portion of said receptaclein a water-tight manner, and by evacuating water from said receptacleand replacing it with air at atmospheric pressure.
 3. A method asclaimed in claim 2, wherein, prior to the introduction of said pipesinto said receptacle, said internal sealing means are situated on theaxis of said orifices and are interlocked in an assembly which moveswith said receptacle.
 4. A method as claimed in claim 1, includingmoving said connection sleeve to cover said end of one of said pipes andto cover or come into contact with said end of said other pipe.
 5. Amethod as claimed in claim 4, wherein during introduction of said end ofsaid pipe into said receptacle said end is driven into an end portion ofsaid connection sleeve having a diameter larger than that of said onepipe.
 6. A method as claimed in claim 5, wherein the other end portionof said connection sleeve has the same diameter as said pipes to beconnected, said connection sleeve being moved back towards said orificethrough which said one pipe was introduced during introduction of saidother pipe into said receptacle.
 7. A method as claimed in claim 3, inwhich said assembly of the internal sealing means is dismantled beforewelding is effected.
 8. A method as claimed in claim 2, wherein saidinternal sealing means are released from sealing against said pipesafter said connection sleeve has been welded to said pipes.
 9. A methodas claimed in claim 8, wherein said internal sealing means are removedfrom the connected pipes by increasing the pressure in one pipe andthereby moving the sealing means to the other end of the other pipe.